688
NOTES TABLEI A. HYDROGENATION OF MALEIC ACID Total time, seconds Catalyst I Catalyst I1 (original method) (modified method)
Hydrogen absorbed, cc.
100 200 300 400 500 600
78 123 166 208 249 288
60 98 135 173 213 253
B. HYDROGENATION OF BENZALDEHYDEP 100 70 152 200 125 23 9 300 181 314 400 240 388 500 304 465 600 372 545
These results show that the catalyst prepared by the modified procedure was in this case somewhat better for the hydrogenation oi maleic acid than that made in the usual way, while the reverse is true for the hydrogenation of benzaldehyde. Reference to the previous study of rates of hydrogenation by this same technique2 shows that the catalysts reported here are even more active than those in the earlier work. (4) The addition of a trace of FeS04 sometimes promoted the reaction and sometimes poisoned it.
DEPARTMENT OF CHEMISTRY CORNELL UNIVERSITY RECEIVED MARCH 5, 1936 ITHACA, NEWYORK
The Numbering of the Sparteine Molecule and its Derivatives BY JAMESFITTONCOUCH
The constitution of sparteine as modified by Clemo and Raper [ J . Chem. SOC.,644-645 (1933)l from the structure suggested by Ing [ibid., 504510 (1933)l may be rearranged to the following form, and the component atoms may then be 4
6
7
6
1
8
9 1 0
11
CH~-CH~-CH-CH-CH~-N-CHZ-CHZ \
17CHz \
i
CH,-CH~-N-CH~-CH-CH-CH~-CH~ 3
I
1
16
15
14
13
12
numbered in the fashion indicated beginning with a ring nitrogen atom in the conventional way. It would be more convenient in this particular case to start with carbon atom number 16 but it is better to adhere to the established rule. This arrangement of the sparteine formula which has been accepted by Prof. Clemo [personal communication] shows a t once its symmetrical character and relationship to other lupine alkaloids and to
Vol. 58
cytisine and anagyrine. Lupanine becomes 2keto-sparteine, hydroxylupanine tentatively its 10-hydroxy derivative and anagyrine is 3,4,5,6tetradehydro-2-keto-sparteine.Lupinine may be formulated as iiCHzOH 4
6
6
3
2
1
7
1
8
10
9
CH~-C11z--CH--CH--CHz I I I CH~-CH~-N--CH~--CH~
and cytisine 4
6
0
7
1
\
CH-CH=C-CH-CH2-NH
/
8
9
13CF CH-CO-N-CHz-CH-CHz 3
2
1
12
11
10
indicating a close relationship between these alkaloids since cytisine may be derived from (hypothetical) tetradehydro-2-keto-lupinine by condensation of methylamine across atoms 9 and 11 of the lupinine skeleton, atom 8 becoming atom 13 of cytisine. Sparteine may be theoretically derived from lupinine by condensation with piperidine in an analogous manner. BUREAUOF ANIMAL INDUSTRY RECEIVED MARCH2, 1936 WASHINGTON, D. C.
Amino Alcohols Derived from 1,2,3,4-Tetrahydrodibenzofuran BY RICHARDA. ROBINSON AND ERICHMOSETTIG
In logical connection with a study of derivatives of 4,5-phenanthylene oxide [Mosettig and Meitzner, THISJOURNAL, 56, 2738 (1934)l the investigation of dibenzofuran derivatives was begun in this Laboratory in 1932 with the hope of finding in this series compounds resembling, particularly in their analgesic action, morphine. In our first paper dealing with dibenzofuran derivatives [Mosettig and Robinson, i b d . , 57, 902 (1935)] we outlined in some detail the direction in which our further synthetic experiments were to proceed. I n the meantime other research groups [Kirkpatrick and Parker, ibid., 57, 1123 (1935); Gilman, Smith, and Cheney, ;bid., 57, 2095 (1935)l have approached the synthesis of possibly analgesic and hypnotic substances in the dibenzofuran scries in a way which is in part similar to ours; previous publications from these investigators had not indicated any intention of seeking morphine-like substances. I n order t o avoid unnecessary duplication of effort, some of our recent experimental results are submitted in this preliminary form.